DE102014104496A1 - Device for the welding connection of connecting elements to the substrate of a power semiconductor module and associated method - Google Patents

Abstract

The invention relates to a device for the welding connection of a connecting element of a power semiconductor module with a conductor track, the device comprising: an abutment for arranging the substrate, wherein the abutment has a first and a second sub-abutment, wherein the first sub-abutment is a metallic shaped body having a modulus of elasticity between 50 and 300 kN / mm ² and the second partial abutment is an elastic molded body with a modulus of elasticity between 10 and 500 N / mm ² and wherein the bottom element rests on the second partial abutment; a holding device, which is designed to fix the bottom element on the abutment; a sonotrode; a positioning device for positioning the connection element to the substrate. Likewise, a manufacturing method of a power semiconductor module using the device is presented.

Description

The invention relates to a device for the welding connection of connecting elements to a substrate, in particular to a conductor track of the substrate, in particular to the substrate of a power semiconductor module, and to a method for producing a power semiconductor module by means of such a device. The term of the welding connection, in short, welded connection, is here and below to be understood as meaning any type of welded connection, in particular ultrasonic welding connections and related connection types, although explicitly not a wire bond connection, as are usual in the art as thin or thick wire bonding connections.

From the prior art, disclosed by way of example in the DE 101 03 084 A1 , a power semiconductor module with at least one power semiconductor component is known, wherein the power semiconductor component is arranged directly on a substrate having a Isolierstoffkörper and arranged on the power semiconductor component facing top, fixedly connected to the Isolierstoffkörper metal layer, wherein at least one connection element of the power semiconductor module with the metal layer is connected by welding.

A professional embodiment of a device for welding connection of connecting elements with conductor tracks of a substrate has a metallic abutment for arranging a bottom element, which may be formed as a base plate with a substrate thereon or only as a substrate, a holding device which is adapted to the bottom element to fix on the abutment and a sonotrode on. In addition, a positioning device for positioning the connection element to the substrate can be provided.

Basically, it is problematic that in the execution of a welded joint by means of a professional device by the introduction of energy by means of the sonotrode on the connecting element, the connection between the metal layer, the usual way conductor tracks formed, and the Isolierstoffkörper is pre-damaged or damaged. In this case, this connection between Isolierstoffkörper and trace can solve at least locally when using the power semiconductor module. As a result, at least the durability of the power semiconductor module can be limited.

In view of the above circumstances, the invention has for its object to provide an improved device for welding connection of connection elements with a substrate and a method for producing a power semiconductor module using such a device.

This object is achieved by a device having the features of claim 1, and by a power semiconductor module having the features of claim 10. Preferred embodiments are described in the respective dependent claims.

• • ein Widerlager zur Anordnung eines Bodenelements, das als ein Substrat oder als eine Grundplatte mit einem darauf befindlichem Substrat ausgebildet ist, wobei das Widerlager ein erstes und ein zweites Teilwiderlager aufweist, wobei das erste Teilwiderlager ein metallischer Formkörper mit einem Elastizitätsmodul zwischen 50 und 300 kN/mm² ist und das zweite Teilwiderlager ein elastischer Formkörper mit einem Elastizitätsmodul zwischen 10 und 500 N/mm² ist und wobei das Bodenelement auf dem zweiten Teilwiderlager, insbesondere ausschließlich hierauf, aufliegt;
• • eine Halteeinrichtung, die dazu ausgebildet ist das Bodenelement auf dem Widerlager zu fixieren;
• • eine Sonotrode;
• • eine Positioniereinrichtung zur Positionierung des Anschlusselements derart zum Substrat, dass ein Kontaktfuß des Anschlusselements auf einer Kontaktstelle einer Leiterbahn des Substrats aufliegt und mittels der Sonotrode damit verbunden wird.

The device according to the invention for the welding connection of a connection element, in particular of the connection element of a power semiconductor module, with a conductor track of a substrate, in particular the track of the power semiconductor module, comprises:

• An abutment for arranging a bottom element, which is formed as a substrate or as a base plate with a substrate thereon, wherein the abutment has a first and a second sub-abutment, wherein the first sub-abutment is a metallic molded body having a modulus of elasticity between 50 and 300 kN / mm ² and the second abutment part, an elastic molded bodies with a modulus of elasticity between 10 and 500 N / mm ² and wherein the base member on the second part abutment, in particular exclusively to, rests;
• A holding device which is designed to fix the bottom element on the abutment;
• • a sonotrode;
• A positioning device for positioning the connection element in such a way to the substrate that a contact foot of the connection element rests on a contact point of a conductor track of the substrate and is connected thereto by means of the sonotrode.

It is particularly preferred if the modulus of elasticity of the second partial abutment is between 25 and 100 N / mm ² .

It is further preferred if the first and the second partial abutment are mechanically connected to each other, preferably by means of a screw connection.

In this case, the second partial abutment may have a minimum thickness of 0.2 cm, preferably 1 cm.

It is particularly advantageous if the holding device is designed as a mechanical clamping device and, alternatively or additionally, as a pneumatic suction device.

Likewise, it may be preferred if the contact point has at least an area of 2 mm ² , preferably 5 mm ² .

It is particularly preferred if the second partial abutment has a hardness of Shore A 60 to Shore D 80, preferably from Shore A 80 to Shore A 95.

Advantageously, the second partial abutment consists of a plastic, preferably a polyurethane, preferably a polyurethane elastomer, preferably a polyether-based polyurethane elastomer.

In the method according to the invention for the production of a power semiconductor module with a bottom element, which is formed as a substrate or as a base plate with a substrate thereon, with a connection element, which consists in particular of copper or a copper alloy, for electrical connection, wherein the connection element is a contact foot has, the contact foot with an associated contact point of a conductor track, which consists in particular of copper or a copper alloy, the substrate welding technology.

Of course, the term connection element here also means a plurality of connection elements, also connection elements of different functionality, such as, for example, internal or outwardly leading load or auxiliary connection elements.

It may be preferred if the bottom element has at least one first pre-bend in the longitudinal direction. At the same time or alternatively, it may be preferred if the bottom element has at least one second pre-bend in the transverse direction.

It is understood that the various embodiments of the invention, ie the device as well as the manufacturing method and the power semiconductor module produced therewith, can be implemented individually or in any desired combinations in order to achieve improvements. In particular, the features mentioned above and here or below can be used not only in the specified combinations, but also in other combinations or in isolation, without departing from the scope of the present invention.

Further explanations of the invention, advantageous details and features, will become apparent from the following description of the in the 1 to 4 schematically illustrated embodiments of the device according to the invention, of the power semiconductor module according to the invention or of respective parts thereof.

1 shows a first embodiment of the device according to the invention with an arranged substrate of a power semiconductor module.

2 shows a second embodiment of the device according to the invention with a base plate with a substrate located thereon of a power semiconductor module.

3 shows a plan view as well as a section through a base plate with thereon substrates of a first power semiconductor module according to the invention produced.

4 shows a plan view as well as a section through a base plate with thereon substrates of a second power semiconductor module according to the invention produced.

1 shows a first embodiment of the device according to the invention 1 with an arranged substrate 60 a power semiconductor module. Shown is an abutment 2 consisting of a first and a second partial abutment 20 . 22 , The first partial abutment 20 preferably corresponds in its essential embodiment to a professional abutment for welded joints, in particular ultrasonic welded joints. This first partial abutment 20 here consists of a metal moldings, in particular a steel body.

With this first partial abutment 20 is the second partial abutment 22 non-positively connected by means of customary screw connections. This second sub-abutment 22 forms at its the first sub-abutment 20 surface facing away from the support surface for an object to be joined by means of a welded joint, here a bottom element 6 of a power semiconductor module.

Also shown are holding devices 3 for fixing this object to be welded or parts thereof. Shown are two, here cooperating holding devices 3 , here a clamping device 30 as well as a pneumatic suction device 32 , which together for non-positive retention of the object on the surface of the second partial abutment 22 serve.

These two embodiments are particularly advantageous if the object, the bottom element 6 itself does not have sufficient mechanical stability to only one of the two holding devices 3 to be fixed.

On the other hand, complement the two holding devices 30 . 32 functional with any object.

The on the surface of the second partial abutment 22 arranged object is here a standard substrate 60 a power semiconductor module. This substrate 60 consists here without limiting the generality of a Isolierstoffkörper 64 , By way of example, an industrial ceramic with arranged on both major surfaces metal, preferably copper laminations 62 . 66 , These copper laminations 62 . 66 form in particular on the abutment 2 opposite side of the substrate 60 conductor tracks 62 of the power semiconductor module.

On these tracks 62 are customary power semiconductor component 70 arranged and electrically connected. Other connections, not shown, connect these power semiconductor device 70 with further tracks 62 of the substrate 60 ,

The weld should here between one of these tracks 62 and a connection element 80 be formed of the power semiconductor module. It is here without limitation of generality to a load connection element for external connection of the power semiconductor module. This load connection element 80 has a contact foot 82 on that with an associated contact point 620 the conductor track 62 of the substrate 60 to be connected.

The load connection element 80 is including the contact foot 82 formed as a shaped metal body, preferably consisting of copper with a commercially available not necessarily the entire surface covering metallic surface coating preferably made of silver or nickel.

The device 1 indicates the positioning of this load connection element 80 and in particular the contact foot 82 to the contact point 620 the conductor track 62 a two-piece 40 . 42 positioning 4 on. This positioning device 4 positions the contact foot 82 immediately at the contact point 620 or at a minimum distance from it.

The device 1 still has a sonotrode 5 for introducing the welding energy to the contact foot 82 of the load connection element 80 on. This is the sonotrode 5 , indicated by the arrow, to which the conductor track 62 opposite side of the contact foot 82 applied and anschießend according to customary ultrasound welding method moves, with typical but not necessary frequencies in the range between 20kHz and 40kHz are applied.

2 shows a second embodiment of the device according to the invention 1 with an object to be connected, here a floor element 6 a power semiconductor module acting as a baseplate 68 with a substrate located thereon 60 is trained. This base plate 68 is designed as a copper cuboid, as it represents a customary training of the base plate for power semiconductor modules. This base plate 68 has a mechanical stability, which in this embodiment of the device 1 a holding device 3 in the form of a pneumatic suction device does not make necessary. The holding device 3 is therefore here, without limitation of generality, only as a clamping device 30 trained, here force directly on the copper cube 68 not on the substrate 60 exercises.

The object to be connected is here except for the copper block 68 So the base plate under the substrate 60 identical to that according to 1 , It is thus a part of a power semiconductor module with base plate.

With the substrate is analogous to 1 a connection element 80 connected, as well as the associated positioning 4 and the sonotrode 5 according to 1 are designed.

The abutment 2 is also according to 1 However, here, as mentioned, has no pneumatic holding device 32 on.

Due to the fact that the second partial abutment 22 is formed in both embodiments as an elastic molded body with a modulus of elasticity between 10 and 500 N / mm ² , the bottom element 6 So either the substrate 60 or the base plate 68 with substrate arranged thereon 60 , during the welding process perform a strongly damped vibration. As a result, the welding process as such is gentler and force peaks also have a damped effect on the actual welded joint. As a result, on the one hand improves the quality of the connection and at the same time prevents the previous damage of an object to be connected.

Especially with substrates 60 of power semiconductor modules made from an industrial ceramics 64 arranged on both major surfaces metal, preferably copper laminations 62 . 66 that conductor tracks at least on one side of the substrate 62 forms, such a gentle weld is advantageous. The copper lamination 62 . 66 are customarily, inter alia, by means of a direct bonding process with the Isolierstoffkörper 64 connected, wherein the adhesive force of the metal lining 62 . 66 on the Isolierstoffkörper 64 is limited and can be exceeded at too high force, at least locally by a customary welding process. This often leads only in the Continuous operation of a power semiconductor module produced in this way to premature failures, so to a reduced life. The device according to the invention 1 prevents this overloading of the connection of the conductor track 62 with the insulating body 64 during the welding process.

In the specific case of the two devices 1 according to the 1 and 2 this is the second partial abutment 22 a cuboid molded polyether-based polyurethane elastomer having a thickness of 2 ± 0.2 cm, a Shore A hardness of 80 ± 5 and a modulus of elasticity of 70 ± 10 N / mm ² .

3 shows a plan view as well as a section through a base plate 68 with two substrates on it 60 a first power semiconductor module produced according to the invention. The base plate 68 here in each case has a recess in its corners 680 for mounting on a heat sink. To compensate for thermally induced tension during operation, this base plate 68 in the longitudinal direction, a first pre-bend 682 such that in the middle of the base plate, a curvature is formed toward a heat sink. Such a curvature should be referred to here as convex and be formed along the double arrow, the maximum of the curvature is centered to the double arrow.

4 shows a plan view as well as a section through a base plate 68 with three substrates on it 60 a second power semiconductor module produced according to the invention. The base plate 68 in this case has three recesses on its longitudinal sides 680 for mounting on a heat sink. To compensate for thermally induced tension during operation, this base plate has two first convex bends in the longitudinal direction 682 and perpendicular thereto, in the transverse direction, two second convex bends 684 on.

The power semiconductor modules according to the 3 and 4 continue to have, without being shown, a plurality of load connection elements for external electrical connection, wherein the respective load connection element has a contact foot, with an associated contact point of a conductor track of the substrate 60 welding technology is connected. The respective load connection element, like the base plate of the power semiconductor modules, consists of copper.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 10103084 A1 [0002]

Claims (14)

Contraption ( 1 ) for the welding connection of a connecting element ( 80 ) with a conductor track ( 62 ) of a substrate ( 60 ), the device comprising: • an abutment ( 2 ) for arranging a floor element ( 6 ) acting as a substrate ( 60 ) or as a base plate ( 68 ) with a substrate thereon ( 60 ) is formed, wherein the abutment ( 2 ) a first and a second partial abutment ( 20 . 22 ), wherein the first partial abutment ( 20 ) is a metallic molding having a modulus of elasticity between 50 and 300 kN / mm ² and the second partial abutment ( 22 ) is an elastic molded body with a modulus of elasticity between 10 and 500 N / mm ² and wherein the bottom element ( 6 ) on the second partial abutment ( 22 ); A holding device ( 3 ), which is adapted to the floor element ( 6 ) on the abutment ( 2 ) to fix; A sonotrode ( 5 ); A positioning device ( 4 ) for positioning the connection element ( 80 ) to the substrate ( 60 ) that a contact foot ( 82 ) of the connection element ( 80 ) at a contact point ( 620 ) a conductor track ( 62 ) of the substrate ( 60 ) rests and by means of the sonotrode ( 5 ) is associated with it. Device according to claim 1, wherein the floor element ( 6 ) exclusively on the second partial abutment ( 22 ) rests. Device according to claim 1 or 2, wherein the modulus of elasticity of the second partial abutment ( 22 ) is between 25 and 100 N / mm ² . Device according to one of the preceding claims, wherein the first and the second partial abutment ( 20 . 22 ) are mechanically connected to each other, preferably by means of a screw connection. Device according to one of the preceding claims, wherein the second partial abutment ( 22 ) has a minimum thickness of 0.2 cm, preferably 1 cm. Device according to one of the preceding claims, wherein the holding device ( 3 ) as a mechanical clamping device ( 30 ) and alternatively or additionally as a pneumatic suction device ( 32 ) is trained. Device according to one of the preceding claims, wherein the contact point ( 620 ) has at least an area of 2 mm ² , preferably 5 mm ² . Device according to one of the preceding claims, wherein the second partial abutment ( 22 ) has a hardness of Shore A 60 to Shore D 80, preferably from Shore A 80 to Shore A 95. Device according to one of the preceding claims, wherein the second partial abutment ( 22 ) consists of a plastic, preferably a polyurethane, preferably a polyurethane elastomer, preferably a polyether-based polyurethane elastomer. Method for producing a power semiconductor module having a bottom element ( 6 ), which serves as a substrate ( 60 ) or as a base plate ( 68 ) with a substrate thereon ( 60 ) is formed, with a connection element ( 80 ) for electrical connection, wherein the connecting element ( 80 ) a contact foot ( 82 ), which by means of a device according to one of the preceding claims with an associated contact point ( 620 ) a conductor track ( 62 ) of the substrate ( 60 ) is connected by welding technology. Method according to claim 10, wherein the connecting element ( 80 ) consists of copper or a copper alloy. Method according to one of claims 10 or 11, wherein the conductor track ( 80 ) consists of copper or a copper alloy. Method according to one of claims 10 to 12, wherein the floor element ( 6 ) in the longitudinal direction at least one first Vorbiegung ( 682 ) having. Method according to one of claims 10 to 13, wherein the floor element ( 6 ) in the transverse direction at least one second pre-bend ( 684 ) having.

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